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A powerful desktop or laptop can either be used as a programmer’s workshop. However, as the world enters the world of smartgadgets, everything’s going to be handy-dandy portable. That being said, programmers need to accustom themselves to the future partners of programming tools, which are apps that are specifically made for coding.

The adage, “there’s an app for everything” isn’t really an exaggeration. There are apps for games, programming tools, and even for people who want to search for a music title just by singing out the melody to their smartphones. Data site Statista wrote that the global mobile app revenues amounted to $26.68 million in 2013, and are expected to grow to $45.37 million by 2015. The latter data on mobile app revenues is quite accurate, given that Entertainment hub Spin Genie’s operating arm Gaming Realms revealed that the online gaming market is expected to be worth around $40 billion by next year. By 2017, the world can expect mobile app revenues to almost double at $76.52 million. If these sales figures don’t say that the future of computing is with portable gadgets, I don’t know what else will.

Here are three, powerful apps for the programmers out there.

Programmer Keyboard

If you have experience programming on android devices, you’re going to love the Programmer Keyboard. It’s a free app that brings to programmers a full keyboard that is equipped with code completion. The app is very stable, and even includes ctrl, alt, and arrow keys that programmers direly need when writing codes.

Developer’s Tool Kit

The Developer’s Tool Kit is a great app for either when you’re writing a code for a program or a website. Its built-in calculator allows developers to see if their code works, or if it’s missing a line. The app also provides programmers the UTF-8 character code or Unicode for any symbol they want.

Pocket Cloud Pocket Cloud is handy app that lets programmers run programs remotely from their Windows or Mac computers. The app’s paid version supports VMWare, advanced RDP features, and connections to several computers at once. Pocket Cloud works amazing even on data Internet connection.

Do you have a favorite programming app on your smartgadget? Share it with us so other readers would know!

There are many existing frameworks and libraries in JavaScript that handle data-binding and application abstractions but none of them offer an integrated solution that works with higher level languages (CoffeeScript, Haml). You could come close with CoffeeScript + hamlc + Knockout or something similar but it would always be a bit of a kludge because they were never designed to work together.

There are three major issues that should be solved in clientside JavaScript applications:

Improved Language (CoffeeScript, or Dart, TypeScript, etc.)

HTML Domain Specific Language (Haml, Jade, Slim, others)

Data-Binding (React, Knockout, others)

Hamlet is novel in that it provides a clean combined solution to these three issues. By building off of CoffeeScript in the compiler we get to have the same improved language inside and outside of our templates. haml-coffee provides a CoffeeScript aware HTML DSL, Knockout.js provides data-binding aware HTML, but no tool provided them together. What if we could truly have the best of both worlds?

%button(click=@say) Hello
%input(value=@value)

say: ->
alert @value()
value: Observable "Hamlet"

This simple example demonstrates the power and simplicity of Hamlet. The value in the input field and the model stay in sync thanks to the Observable function. The template runtime is aware that some values may be observable, and when it finds one it sets up the bindings for you.

All of this fits within our < 4k runtime. The way we are able to achieve this is by having a compile step. Programmers accustomed to languages like Haml, Sass, and CoffeeScript (or insert your favorites here) are comfortable with a build step. Even plain JS/HTML developers use a build step for linters, testing, and minification. So granted that most web developers today are using a build step, why not make it do as much of the dirty work as we can?

The Hamlet compiler works together with the Hamlet runtime so that your data-bindings stay up to date automatically. By leveraging the power of the document object itself we can create elements and directly attach the events that are needed to observe changes in our data model. For input elements we can observe changes that would update the model. This is all possible because our compiler generates a simple linear list of instructions such as:

create a node
bind an id attribute to model.id
add a child node
...

As the runtime executes instructions it has the data that should be bound. Because the runtime is “Observable aware” it will automatically attach listeners as needed to keep the attribute or value in sync with the model.

The template starts out as a text string. This gets fed into the hamlet-cli which converts it into a JS function. When the JS function is invoked with a model, in the context of the browser and the Hamlet runtime, it produces a Node or DocumentFragment containing interactive data-bound HTML elements. This result may then be inserted into the DOM.

There’s no strong reason to choose Haml over Slim or Jade, I just started with it because it was a syntax I knew well. The name Hamlet comes from “Little Haml” as it is a simplified subset of Haml. Adding support for a Jade or Slim style is as easy as creating a new lexer that with the appropriate subset of Jade or Slim.

Some of the simplifications to the language come from the power of the runtime to build DOM elements directly. We don’t need to worry about escaping because we’re building DOM elements and not strings. We can also avoid the DOCTYPE stuff and other server specific requirements that are not relevant to a clientside environment. Other reductions were chosen solely to make the language simpler, which has value in itself.

The core goal of Hamlet is to provide an HTML domain specific language that seamlessly inter-operates with CoffeeScript and provides bi-directional data binding. Each piece works together to provide an amazing overall experience. But you don’t have to take my word for it, try it out for yourself with our interactive demos.

Array#maxima is the core of this set, all the other methods are implemented based upon it. maxima returns a list of the elements that have the maximum value for a given value function. The default value function is the identity function which returns the item itself. This will work great for integers or strings: anything that correctly works with the > operator.

The value function can be overridden for example if you want to compute the maximum length word in a list you could pass in (word) -> word.length

The special case maximum delegates to maxima and returns only the first result. Similarly minima delegates to maxima but inverts the value function.

With these methods many problems that seem complex actually become quite a lot simpler by picking a value function and whether you want to maximize it or minimize it.

Over the past two years I’ve been developing a multiplayer hockey game in CoffeeScript. What follows is a rough list of some things that I’ve learned.

And let’s be clear, these are all the mistakes I made before I got to the part where I built the game.

JavaScript
CoffeeScript is great as a programming language, but it’s still built on top of JavaScript. JavaScript has a few crippling problems when it comes to reusable libraries, like the lack of a require statement in the language itself. There are many tools that try to address this, falling mostly into two separate groups: compile/build tools and runtime tools.

Since I use CoffeeScript, a compile time tool fits well into my pipeline. For websites, generally I use Sprockets where you can explicitly require other files using special comments:

#= require player#= require map#= ...

This is good. Dependencies can be made explicit and you can require files from other files. The disadvantage is that this all happens during build time, so Sprockets itself doesn’t provide any way to require files at runtime. For rapid development some sort of guard script is needed to recompile all your files when any change. In practice this takes less than a second and changes are immediately available when refreshing the page.

Requirejs is an alternative that provides support for requiring additional files at runtime. This approach is great for development, but still requires a compilation step for optimizing distribution.

Either of these approaches work fine and the correct one to choose depends mostly on how well they integrate with the rest of your toolchain.

These problems would be mitigated greatly by a reliable and robust, game development-specific framework similar to Rails. There are many JS web development frameworks. There are even some that fit certain definitions of robust and reliable. I’ve even spent years trying to create one with its own crippling problems, but that’s a tale for another time.

As of yet I haven’t found any that I could recommend, and that’s coming from someone who spent three years building one. The features that I think are essential are:

Command line support

Packaging for web/download deployment

Rapid development environment

First-class testing environment

Extensions to core JavaScript libraries

Additional libraries specific to games

Dependency management as good as Bundler

Many people are working on these issues. For each one there are many attempts, but there isn’t yet an opinionated framework that brings them all together in a way that developers can get started with quickly and easily. The biggest problem is that even by choosing the most popular tool for each issue, you rapidly become the only person in the world who has used each of those tools together.

Distribution

HTML games provide a great multi-platform distribution mechanism: a website that players can go to and play the game directly in the browser. For selling a direct download, a zip file with a run.html file is easy to create – it’s pretty much the same as a zip of the website. Linux/Mac/Windows compatibility is practically free, though the major issue would be the player’s choice of browser. If it is extremely important that the game be played in a quality browser, Chrome Portable can be bundled with the game or provided as a separate install step.

Sharing with testers is also easy, just send a zip or link to the page where you’re developing your game. You could even host everything on Github Pages.

Gamepads

Gamepad support is now quite good in Chrome, but needs support from other major browsers. There are native plugins available that will enable all browsers on all platforms to provide equivalent gamepad support, but it’s too much trouble to assume players will install a plugin and too much additional work for developers to implement as well. Maybe if a plugin matched the API more exactly it would mitigate this from a developer perspective, but asking players to install native plugins defeats much of the gains from an HTML experience.

On the bright side, when playing Red Ice using Chrome, the gamepad support is better than most popular indie games. (Binding of Isaac, I’m looking at you!)

Multi Player

In an attempt to alienate all potential players, I originally designed Red Ice to be played 3v3 locally using XBox controllers. As you can see from this chart, number of friends drops rapidly when owning more than three controllers.

Right now Red Ice is 2v2, and that’s probably correct. I do want to do more experimental games with more than four players locally, but with six or more players, screen real estate starts to become an issue.

The best part is that the same image will always have the same hostname. I’ve seen some people suggest randomly choosing a domain, but that reduces caching potential as the same item could be requested from multiple different domains over time.

When programming if something is hard it means that you are not programming at the correct level of abstraction. Remember your ABCs (Always Be Coding-at-the-correct-level-of-abstraction).

What is the correct level of abstraction? The correct level of abstraction is the level that perfectly matches your problem domain. If you are creating an application about painting and geometry then you’ll probably be using points, lines, colors, areas, blending and more. Be sure to use those in your code as well, because doing cross products by hand is for mathletes, not painters.

I recently put this into practice when I was creating the menu screen for Red Ice:

The structure looks like a menu, with submenus being obvious by their indentation. There’s not a lot of extra syntax junk in the trunk. It’s clean an to the point.

I knew that I wanted the menu to be a simple list of strings and functions. I started out by just using object literals, but noticed much redundancy. In the natural process of drying up the code by removing redundancy and naming functions simply I ended up creating a DSL.

The starting point was creating a function called item.

item = (text, fn)->
text: text.toUpperCase()
action: fn

At that point the menu became a list of items, which was a big improvement, but several of the functions were similar, like opening a submenu or changing game states. So I decided to add more functions whenever anything was duplicated. These new methods were able to build on the item method I had created before, making them simpler as well.

The submenu was a little more interesting. Because I made it a function, it was easy to automatically add a back button to each submenu just by sticking it in the function. Additionally implementing the back button was very simple by using the functions I had previously defined. One benefit of CoffeeScript is that I was able to use splats to allow any length of arguments to the submenu function, with each argument after the name being an item in the submenu.

The biggest advantage of DSLs, correct abstractions, and higher-level languages, is that their power compounds. This would have been possible in pure JavaScript, but probably such a pain that it wouldn’t have been worth doing. Once you have a solid abstraction you can then build on it further and even combine different components in new and interesting ways.

If all you have is a hammer it’s going to take you a damn long time to build a house.

I was searching for how to include sass mixins in Sprockets projects as a gem dependency. There may be some way to do it but I couldn’t figure it out. That’s why I ended up going for a Compass extension, since I use Compass anyway.

@mdiebolt and I review our daily 1 hour game jams over the past week. Audio levels in games are still too loud.

First 30 Days:

Week ending 04-14-2012:

I find that doing these 1 hour jams every day really helps to focus my game design skills. Who’d have thought that practicing something for at least an hour every day will make you better at it? Now when Ludum Dare rolls around 48 hours will seem like a 2 year dev cycle.